-- Speed of a wave = (frequency) times (wavelength)
-- There is no general formula for amplitude.
A point on a violin string is vibrating transversely at 500 cycles with an amplitude of 1mm. Find the maximum speed and acceleration of this point.
In a sinusoidal wave amplitude is the height of the crest and frequency is the no. of oscillations per second.Hence,amplitude remains same for any change in frequency.-No relation.
Frequency is above 1 GHz or so for radar. General amplitude of waves put out by a radar gun is what I was trying to find when I stumbled across this. I imagine its in the mV or lower range though
The amplitude of a compressional wave, like a sound wave, is determined by the concentration of molecules in each compression. The higher the amplitude, or energy that a wave carries, the more compact the molecules are in a compression. The lower the amplitude, the more spread out those particles are. the amplitude of a compressional wave,like a sound wave,is determined by the contretration of waves in a compression
The formula is frequency = Energy/h where h is Planck's Constant, 2/3 E-33.
A point on a violin string is vibrating transversely at 500 cycles with an amplitude of 1mm. Find the maximum speed and acceleration of this point.
In a sinusoidal wave amplitude is the height of the crest and frequency is the no. of oscillations per second.Hence,amplitude remains same for any change in frequency.-No relation.
Frequency is above 1 GHz or so for radar. General amplitude of waves put out by a radar gun is what I was trying to find when I stumbled across this. I imagine its in the mV or lower range though
There are a few different formulas, depending on what measurements you know. For mechanical waves . . . the mechanical characteristics of the medium. For electromagnetic waves . . . the electrical characteristics of the medium. For all waves . . . the product of (wavelength) multiplied by (frequency).
The question is incomplete. Frequency of what? If it refers to electromagnetic waves, you won't need even frequency to determine velocity (in a vacuum), because it will always be c (the speed of light). You can compute the speed of other kinds of waves if you know the frequency and wavelength, but not from frequency alone. The formula is frequency x wavelength = velocity If the waves are electromagnetic, and you have only frequency, you can compute the wavelength using the same formula.
speed = distance / time
Not enough information. You can use the equation speed = frequency x wavelength, but in this case, you don't have enough data to calculate the speed.
it was MAxwell the dude who discovered electromagnetic waves
The amplitude of a compressional wave, like a sound wave, is determined by the concentration of molecules in each compression. The higher the amplitude, or energy that a wave carries, the more compact the molecules are in a compression. The lower the amplitude, the more spread out those particles are. the amplitude of a compressional wave,like a sound wave,is determined by the contretration of waves in a compression
The formula is frequency = Energy/h where h is Planck's Constant, 2/3 E-33.
You can find many formulas in which time is one of the variables. For example, the distance formula states that distance is equal to speed multiplied by the time. You can find time by saying that it is equal to distance divided by speed.
Distance = time * average speed (velocity) Average speed = Distance/time